KR0132558B1 - Ballast tank internal gas controlling type tanker - Google Patents

Abstract

In the ballast tank internal gas regulating tank of the present invention, an inert gas main pipe (1a) capable of supplying inert gas into the downstream tanker from the inert gas generator (1) via a blower (2), and the bottom of the ballast tank (11). In the tanker provided with the ballast main pipe | tube 5 which can absorb a ballast material through the suction bell mouse 6 from a part, it can be selectively switched with the inert gas generator 1, and can be connected to the blower 2. The air inlet pipe 3 is provided, and the gas introduced into the inert gas pipe 1a through the blower 2 from one of the inert gas generator 1 and the air inlet pipe 3 is transferred to the ballast pipe 5. It is characterized in that it is configured to interpose the valve connection pipe (4) between the copper ballast main pipe (5) and the inert gas main pipe (1a) so as to adjust the internal gas of the ballast tank (11) by conveying to). .

Description

Ballast Tank Internal Gas Adjustable Tanker

1 is a view showing the main part of the gas control tank in the ballast tank as an embodiment of the present invention;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional perspective view conceptually showing the ballast tank ventilation means of a conventional tanker

＊ Explanation of symbols for main parts of drawing

1: inert gas generator 2: blower

1a: Inert gas pipe 3: Air introduction pipe

4: Contact tube with valve 5: Ballast lead

6: Suction bell mouth 7: Upper exhaust part

11: ballast tank 15: oil tank

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an internal gas regulating tanker in ballast tanks. More specifically, the oxygen concentration of a gas in a ballast tank as a safety measure against leakage of ballast tanks during the occurrence of cracking of a downstream tank in a tanker. The present invention relates to a ballast tank internal gas regulating tank, which reduces internal pressure or replaces internal gas with fresh air for a worker in maintenance of a ballast tank. In addition, the present invention relates to a tanker suitable for the case of the double hull type system, in which a ballast tank is provided on the side and the bottom of the lower tank.

3 shows the means for adjusting the internal gas of the ballast tank 11 in the conventional double hull tanker. The ballast tank 11 is provided with the L-shaped cross section provided in the side and the bottom of the oil discharge tank 15. As shown in FIG. The ballast tank 11 has the canvas duct 13 lowered in the ballast tank 11 from the copper blower 12 by the portable blower 12 mounted in the upper deck opening part in the upper part. Fresh air can be introduced through.

As the fresh air is introduced into the ballast tank 11, the air in the ballast tank is replaced with the fresh air and is discharged from the exhaust section 14 in the upper deck.

By the way, in the ventilation means by the combination of the conventional portable blower 12 and the canvas duct 13 as described above, fresh air is supplied into the ballast tank for the worker during maintenance of the ballast tank 11. In the case where it is desired to be introduced, the preparation work for mounting the blower 12 or the canvas duct 13 takes time, and there is a inconvenience that only the portion directly under the blower 12 can be ventilated. Therefore, as the ventilation means, there is a problem that ventilation in the deep inside of the L-type ballast tank 11 is insufficient, which causes trouble in maintenance inspection work.

In addition, in the case where the leakage of the lower oil from the lower oil tank 15 to the ballast tank 11 occurs, it is desired to take an explosion prevention measure by lowering the oxygen concentration in the ballast tank 11 by introducing an inert gas. The above-mentioned means of assembling the portable blower 12 and the canvas duct 13 could not cope at all.

SUMMARY OF THE INVENTION The present invention is intended to solve these problems, and it is necessary to use a ballast water discharge system from a ballast tank equipped with a conventional tanker or an inert gas supply system to a downstream tank as an existing actual cost. It is an object of the present invention to provide a gas-controlled tanker in a ballast tank, which enables the supply of inert gas and fresh air to be selectively performed, thereby enabling appropriate adjustment to the gas in the ballast tank.

Referring to the drawings, a ballast tank internal gas regulating tanker according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a view showing the main parts thereof, and FIG. 2 is a cross-sectional view taken along line A-A of FIG.

As shown in FIG. 1 and FIG. 2, the tanker of this embodiment is a double hull type | mold and is provided with the ballast tank 11 which has an L-shaped cross section to the side and the lower side of the lower tank 15. As shown in FIG. The tanker is provided with an inert gas pipe 1a capable of supplying inert gas from the inert gas generator 1 through the blower 2 into the lower tank 15.

In addition, the tanker is provided with a ballast period 5 for absorbing the ballast material from the bottom of the ballast tank 11 via the suction bell mouse 6 using a ballast pump (not shown).

In addition, the tanker is provided with an air introduction pipe 3 which can be selectively switched to the inert gas generator 1 and connected to the blower 2. As a means for selectively switching and connecting one of the inert gas generator 1 and the air introduction pipe 3 to the blower 2, a switching means by a valve, not shown, can be used.

Inert gas is an inert gas which does not contain oxygen. An inert gas generator is generally installed in the tanker. When loading crude oil etc. in a tanker, an air layer is formed in the upper part of the lower oil tank 15 in many cases. If oxygen exists in this air layer, there is a risk of explosion. For this reason, the inert gas is supplied into the lower tank 15 and replaced with oxygen-containing air, thereby preventing the risk of explosion in the lower tank 15.

When the amount of crude oil loaded in the lower oil tank 15 is small, the ballast introduces seawater into the ballast tank 11 to make a preferable draft for the vessel to operate, thereby stabilizing the attitude of the vessel. It is for. When crude oil leaks in this ballast tank when the ballast tank 11 is empty, combustible gas will generate | occur | produce in this ballast tank. At this time, if oxygen-containing air enters the ballast tank 11, there is a risk that oxygen will react with the combustible gas and explode. In order to prevent this explosion, it is necessary to supply an inert gas which is a nonflammable gas also to the ballast tank 11.

Thus, the ballast main pipe 5 receives the gas (inert gas or air) which flowed into the inert gas main pipe 1a from the inert gas generator 1 and the air introduction pipe 3 via the blower 2. The valve-connected contact tube 4 is interposed between the ballast main pipe 5 and the inert gas main pipe 1a so as to be transferred to the ballast.

Then, the suction bell mouse 6 is disposed in the upper portion of the ballast tank 11 so that the gas transferred to the ballast main pipe 5 through the contact pipe 4 can be sufficiently replaced with the existing gas in the ballast tank 11. It is installed in the deep part of the copper ballast tank farthest from the base (7).

With the above configuration, when fresh air is introduced into the tank 11 for the worker in the maintenance of the ballast tank 11, the air introduced by the blower 2 from the air introduction pipe 3 is introduced. The inert gas main pipe 1a is introduced into the inert gas main pipe 1a, and the air is transferred to the ballast main pipe 5 through the communication pipe 4. Subsequently, the air transferred to the ballast week 5 flows into the ballast tank 11 via the ballast branch pipe and the suction bell mouse 6.

At this time, since the suction bell mouse 6 is installed in the innermost part farthest from the exhaust part 7 of the upper part of the ballast tank 11, the inside of the ballast tank 11 can be fully ventilated, and therefore maintenance The worker can work in a safe environment.

In addition, when the lower oil leaks in the ballast tank 11 due to the crack of the lower oil tank 15, the inert gas which flowed into the inert gas pipe 1a by the blower 2 from the inert gas generator 1 is carried out. Then, it is transferred to the ballast main pipe 5 through the communication pipe 4 and introduced into the ballast tank 11 via the ballast branch pipe and the suction bell mouse 6. As a result, the oxygen concentration in the ballast tank 11 decreases, so that an explosion prevention measure is achieved.

In the present invention, the ballast water in the ballast tank 11 is discharged using a ballast pump (not shown) via the suction bell mouse 6 and the ballast pipe 5. At this time, the inert gas main pipe 1a and the ballast main pipe 5 are separated from each other by a switching means constituted by a valve (not shown), and only the suction bell mouse 6 and the ballast main pipe 5 communicate with the ballast pump. have.

In addition, when the lower oil is mounted in the lower oil tank 15, the ballast water in the ballast tank 11 is discharged through the suction bell mouse 6 and the ballast main pipe 5, and normal air is exhausted. Fill the ballast tank (11) through. On the other hand, when the lower oil tank 15 is empty, the ballast material is supplied in the ballast tank 11.

The inert gas is supplied when the lower oil is mounted in the lower oil tank 15 and there is no ballast water (sea water) in the ballast tank 11 and the ballast pipe 5. In this state, when the downstream of the lower tank 15 leaks into the ballast tank 11 for some reason, the inert gas is supplied. In addition, the leak detection of this lower part can be detected with the conventional portable or fixed gas detector etc. conventionally.

The inert gas main pipe 1a and the ballast main pipe 5 communicate with each other via the connecting pipe 4 by the switching means only when inert gas or air is led into the ballast tank 11.

like this. In the present invention, by supplying the communication pipe (4), and opening and closing the communication pipe appropriately, by using the inert gas supply system and the ballast tank drainage system of the existing equipment, if necessary, the water supply and drainage of the ballast in the ballast tank and inert gas Alternatively, air can be supplied.

As described above, the ballast tank internal gas regulating tanker of the present embodiment includes an inert gas generating device 1 and an activating gas main pipe 1a connected to the copper device 1 via a large-capacity blower 2. A ballast water discharge system including an inert gas supply system, a ballast main body 5 and a suction bell mouse 6 is provided.

The inert gas supply system and the ballast water discharge system are equipped with a conventional tanker. The tanker of the present embodiment has a configuration in which the air introduction pipe 3 and the communication pipe 4 are assembled by the inert gas supply system and the ballast water discharge system, thereby supplying fresh air into the ballast tank 11. It is possible to carry out extremely efficient and accurate adjustment of the internal gas such as preparing for maintenance work or supplying inert gas to take safety measures against leakage, and at the same time deep inside the ballast tank, especially in the case of double hull tankers. The internal gas can be adjusted properly up to the portion.

As described above, according to the ballast tank internal gas adjustment tanker of the present invention, the following effects can be obtained.

① By using the inert gas supply system for the downstream tank and the ballast tank drainage system, which are equipped with a conventional tanker as an existing facility, the air inlet pipes and the liaison pipes are assembled to them to introduce fresh air into the ballast tanks. The explosion prevention measures by the preparation of the maintenance work by the introduction and introduction of inert gas can be performed correctly.

(2) By using a large-capacity inert gas blower, the internal gas of the ballast tank can be adjusted quickly.

③ According to the above ① and ②, it is possible to drastically shorten the operation stop period when checking ballast tank.

(4) Since the conventional portable blower is unnecessary and the apparatus is fixed, there is an advantage that it can be easily handled even in an emergency.

⑤ Even when the ballast tank has an L-shaped cross section like a double hull tanker, the suction bell mouse is installed in the deepest part of the copper ballast tank farthest from the exhaust of the upper part of the ballast tank. It is possible to efficiently and efficiently perform the ventilation operation of replacing the existing gas in the tank with fresh air.

Claims (2)

Suction bell mouse (6) from the inert gas generator (1) through the blower (2) through the inert gas pipe (1a) that can supply the inert gas in the lower tank (15) and the bottom of the ballast tank (11) In a tanker having a ballast pipe (5) capable of absorbing ballast water through the air, the air inlet pipe (3) which can be selectively switched to the inert gas generator (1) and connected to the blower (2) At the same time, a valve attachment tube 4 is interposed between the ballast main pipe 5 and the inert gas main pipe 1a, and the inert gas generator 1 and the air inlet pipe 3 are installed. It is characterized in that the internal gas of the ballast tank (11) can be adjusted by transferring the gas introduced into the inert gas pipe (1a) through the blower (2) from one side of the ballast pipe (5). Internal gas adjustment of ballast tank Food tanker The ballast tank according to claim 1, wherein the suction bell mouse (6) is replaced with the existing gas in the ballast tank (11) using the suction bell mouse (6). (11) Ballast tank internal gas adjustable tanker, characterized in that installed in the deepest part of the copper ballast tank (11) farthest from the upper exhaust portion (7)